Patents
Literature
Hiro is an intelligent assistant for R&D personnel, combined with Patent DNA, to facilitate innovative research.
Hiro

100 results about "High resolution spectra" patented technology

Method and apparatus for a downhole spectrometer based on electronically tunable optical filters

ActiveUS20050099618A1High resolution spectroscopyEasy to analyze and useRadiation pyrometrySurveyGas oil ratioAPI gravity
The present invention provides an apparatus and method for high resolution spectroscopy (approximately 10 picometer wavelength resolution) using a tunable optical filter (TOF) for analyzing a formation fluid sample downhole and at the surface to determine formation fluid parameters. The analysis comprises determination of gas oil ratio, API gravity and various other fluid parameters which can be estimated after developing correlations to a training set of samples using a neural network or a chemometric equation.
Owner:BAKER HUGHES INC

Light source for a downhole spectrometer

The present invention provides an apparatus and method for high resolution spectroscopy using a narrow light beam source such as a superluminescent diode (SLD) and a tunable optical filter (TOF) for analyzing a formation fluid sample downhole and at the surface to determine formation fluid parameters. The SLD and TOF have a matching etendue. The analysis comprises determination of gas oil ratio, API gravity and various other fluid parameters which can be estimated after developing correlations to a training set of samples using a neural network or a chemometric equation.
Owner:BAKER HUGHES INC

Slit-scan multi-wavelength confocal lens module and slit-scan microscopic system and method using the same

The present invention provides a slit-scan multi-wavelength confocal lens module, which utilizes at least two lenses having chromatic aberration for splitting a broadband light into continuously linear spectral lights having different focal length respectively. The present invention utilizes the confocal lens module employing slit-scan confocal principle and chromatic dispersion techniques and the confocal microscopy with optical sectioning ability and high resolution in spectral dispersion to establish a confocal microscopy method and system with long DOF and high resolution, capable of modulating a broadband light to produce the axial chromatic dispersion and focus on different depths toward an object's surface for obtaining the reflected light spectrum from the surface. Thereafter, the spectrum is spatially filtered by a slit and then a peak position with respect to the filtered spectrum along the scanning line is detected by a spectral image sensing unit for generating the sectional profile of the measured surface.
Owner:NAT TAIPEI UNIV OF TECH

Piezo activated mode tracking system for widely tunable mode-hop-free external cavity mid-IR semiconductor lasers

A widely tunable, mode-hop-free semiconductor laser operating in the mid-IR comprises a QCL laser chip having an effective QCL cavity length, a diffraction grating defining a grating angle and an external cavity length with respect to said chip, and means for controlling the QCL cavity length, the external cavity length, and the grating angle. The laser of claim 1 wherein said chip may be tuned over a range of frequencies even in the absence of an anti-reflective coating. The diffraction grating is controllably pivotable and translatable relative to said chip and the effective QCL cavity length can be adjusted by varying the injection current to the chip. The laser can be used for high resolution spectroscopic applications and multi species trace-gas detection. Mode-hopping is avoided by controlling the effective QCL cavity length, the external cavity length, and the grating angle so as to replicate a virtual pivot point.
Owner:RICE UNIV

Frequency comb source with large comb spacing

A frequency comb laser providing large comb spacing is disclosed. At least one embodiment includes a mode locked waveguide laser system. The mode locked waveguide laser includes a laser cavity having a waveguide, and a dispersion control unit (DCU) in the cavity. The DCU imparts an angular dispersion, group-velocity dispersion (GVD) and a spatial chirp to a beam propagating in the cavity. The DCU is capable of producing net GVD in a range from a positive value to a negative value. In some embodiments a tunable fiber frequency comb system configured as an optical frequency synthesizer is provided. In at least one embodiment a low phase noise micro-wave source may be implemented with a fiber comb laser having a comb spacing greater than about 1 GHz. The laser system is suitable for mass-producible fiber comb sources with large comb spacing and low noise. Applications include high-resolution spectroscopy.
Owner:IMRA AMERICA

Method and apparatus for acquiring high resolution spectral data or high definition images in inhomogeneous environments

A method and apparatus for treating a sample for acquiring high-definition magnetic resonance images (MRI images) or high resolution nuclear magnetic resonance (NMR) spectra even in the presence of magnetic field distortions within one or multiple scans. The spatial nature and temporal dependence of the field inhomogeneities are determined a priori using any of several literature procedures. A static or oscillating magnetic field gradient is applied on the sample so as to endow spins at different positions within the sample with different resonance frequencies. A phase- and amplitude-modulated radiofrequency (RF) pulse is applied in unison with the magnetic field gradient so as to endow spins at different positions within the sample with a homogeneous excitation / inversion profile. The nature of the spatially-selective RF irradiation is tailored in such a way that, when added on top of the effects of the inhomogeneities, the spins' evolution phases and their signal amplitudes at the time of the acquisition become independent of the inhomogeneities. The spin signals thus created are captured and decoded, so as to obtain the spins' response as if the inhomogeneity was not present. The collected data is processed to a suitable rearrangement and Fourier analysis procedure to retrieve a final undistorted image or spectrum. The magnetic field gradient can be oscillated to impose this kind of inhomogeneity corrections on multiple spatial dimensions sequentially, or simultaneously.
Owner:YEDA RES & DEV CO LTD

Method and apparatus for a high resolution downhole spectrometer

The present invention provides a simple, robust, and versatile high-resolution spectrometer that is suitable for downhole use. The present invention provides a method and apparatus incorporating a spinning, oscillating or stepping optical interference filter to change the angle at which light passes through the filters after passing through a sample under analysis downhole. As each filter is tilted, the color or wavelength of light passed by the filter changes. Black plates are placed between the filters to isolate each filter's photodiode. The spectrometer of the present invention is suitable for use with a wire line formation tester, such as the Baker Atlas Reservation Characterization Instrument to provide supplemental analysis and monitoring of sample clean up. The present invention is also suitable for deployment in a monitoring while drilling environment. The present invention provides a high resolution spectometer which enables quantification of a crude oil's percentage of aromatics, olefins, and saturates to estimate a sample's gas oil ratio (GOR). Gases such as CO2 are also detectable. The percentage of oil-based mud filtrate contamination in a crude oil sample can be estimated with the present invention by using a suitable training set and chemometrics, a neural network, or other type of correlation method.
Owner:BAKER HUGHES INC

Miniature spectrograph with diffraction hole array structure and high resolution spectrum reconstruction method thereof

InactiveCN102564586AStrong anti-vibration interference abilityImprove performanceRadiation pyrometrySpectrum investigationOptical spectrometerSpectrograph
The invention provides a miniature spectrometer with a diffraction hole array structure and a high resolution spectrum reconstruction method thereof. The diffraction hole array structure miniature spectrometer basically comprises a miniature diffraction hole two-dimensional array, a base, a detecting array chip, a glare shield, and light transmitting holes, wherein the miniature diffraction hole two-dimensional array is constructed on a light blocking layer on the base surface and different in hole size. The base is made of transparent materials. The detecting array chip which corresponds to the base is arranged below the base, and one diffraction hole corresponds to one pixel member of the detecting array chip. The glare shield is arranged between the base and the detecting array chip and covers most area of each charge coupled device (CCD) pixel member. A series of light transmitting holes with the same hole size are arranged on the glare shield, each diffraction hole directly aligns to each light transmitting hole, and each CCD pixel member is below each diffraction hole. Due to the fact that diffraction phenomena occurs after incident light passes through the diffraction holesabove the base, the corresponding CCD pixel members below the diffraction holes can detect a certain diffraction light power. The hole size of each diffraction hole on the array is different, the diffraction light power detected by the corresponding CCD pixel members below is also different, and the spectral information of the incident light can be obtained only by inverting the data detected by each CCD pixel member.
Owner:NANJING FANGYUAN GLOBAL DISPLAY TECH

Method and apparatus for acquiring high resolution spectral data or high definition images in inhomogeneous environments

A method and apparatus for treating a sample for acquiring high-definition magnetic resonance images (MRI images) or high resolution nuclear magnetic resonance (NMR) spectra even in the presence of magnetic field distortions within one or multiple scans. The spatial nature and temporal dependence of the field inhomogeneities are determined a priori using any of several literature procedures. A static or oscillating magnetic field gradient is applied on the sample so as to endow spins at different positions within the sample with different resonance frequencies. A phase- and amplitude-modulated radiofrequency (RF) pulse is applied in unison with the magnetic field gradient so as to endow spins at different positions within the sample with a homogeneous excitation / inversion profile. The nature of the spatially-selective RF irradiation is tailored in such a way that, when added on top of the effects of the inhomogeneities, the spins' evolution phases and their signal amplitudes at the time of the acquisition become independent of the inhomogeneities. The spin signals thus created are captured and decoded, so as to obtain the spins' response as if the inhomogeneity was not present. The collected data is processed to a suitable rearrangement and Fourier analysis procedure to retrieve a final undistorted image or spectrum. The magnetic field gradient can be oscillated to impose this kind of inhomogeneity corrections on multiple spatial dimensions sequentially, or simultaneously.
Owner:YEDA RES & DEV CO LTD

Method and apparatus for a high resolution downhole spectrometer

The present invention provides a simple, robust, and versatile high-resolution spectrometer that is suitable for downhole use. The present invention provides a method and apparatus incorporating a spinning, oscillating or stepping optical interference filter to change the angle at which light passes through the filters after passing through a sample under analysis downhole. As each filter is tilted, the color or wavelength of light passed by the filter changes. Black plates are placed between the filters to isolate each filter's photodiode. The spectrometer of the present invention is suitable for use with a wire line formation tester, such as the Baker Atlas Reservation Characterization Instrument to provide supplemental analysis and monitoring of sample clean up. The present invention is also suitable for deployment in a monitoring while drilling environment. The present invention provides a high resolution spectometer which enables quantification of a crude oil's percentage of aromatics, olefins, and saturates to estimate a sample's gas oil ratio (GOR). Gases such as CO2 are also detectable. The percentage of oil-based mud filtrate contamination in a crude oil sample can be estimated with the present invention by using a suitable training set and chemometrics, a neural network, or other type of correlation method.
Owner:BAKER HUGHES INC

Photoacoustic Spectrometer with Calculable Cell Constant for Quantitative Absorption Measurements of Pure Gases, Gaseous Mixtures, and Aerosols

A photoacoustic spectrometer that is intensity-modulated, laser-driven and with a calculable cell constant. The axially symmetrical photoacoustic spectrometer combines first-principles models of acoustic wave propagation with high-resolution spectroscopic measurements, and takes into account molecular relaxation. The spectrometer includes a duct and two chambers disposed at the end of the duct. Inlet and exit tubes, which are disposed in substantially the location of acoustic pressure nodes, permit the gas, gaseous mixture or aerosol to enter and exit the spectrometer. The absolute response of the spectrometer may be modeled and measured. A detailed theoretical analysis of the system and its predicted response may be predicted as a function of gas properties, resonance frequency and sample energy transfer relaxation rates.
Owner:GOVERNMENT OF THE UNITED STATES OF AMERICA AS REPRESENTED BY THE SEC OF COMMERCE THE NAT INST OF STANDARDS & TEHCNOLOGY

Method and apparatus for a high resolution downhole spectrometer

The present invention provides a simple, robust, and versatile high-resolution spectrometer that is suitable for downhole use. The present invention provides a method and apparatus incorporating a spinning, oscillating or stepping optical interference filter to change the angle at which light passes through the filters after passing through a sample under analysis downhole. As each filter is tilted, the color or wavelength of light passed by the filter changes. Black plates are placed between the filters to isolate each filter's photodiode. The spectrometer of the present invention is suitable for use with a wire line formation tester, such as the Baker Atlas Reservation Characterization Instrument to provide supplemental analysis and monitoring of sample clean up. The present invention is also suitable for deployment in a monitoring while drilling environment. The present invention provides a high resolution spectometer which enables quantification of a crude oil's percentage of aromatics, olefins, and saturates to estimate a sample's gas oil ratio (GOR). Gases such as CO2 are also detectable. The percentage of oil-based mud filtrate contamination in a crude oil sample can be estimated with the present invention by using a suitable training set and chemometrics, a neural network, or other type of correlation method.
Owner:BAKER HUGHES INC

Slit-scan multi-wavelength confocal lens module and slit-scan microscopic system and method using the same

The present invention provides a slit-scan multi-wavelength confocal lens module, utilizing at least two lenses having chromatic aberration for splitting a broadband light into continuously linear spectral lights having different focal length respectively. The present invention utilizes the confocal lens module employing slit-scan confocal principle and chromatic dispersion techniques and the confocal microscopy with optical sectioning ability and high resolution in spectral dispersion to establish a confocal microscopy method and system with long DOF and high resolution, capable of modulating a broadband light to produce the axial chromatic dispersion and focus on different depths toward an object's surface for obtaining the reflected light spectrum from the surface. Thereafter, the spectrum is spatially filtered by a slit and then a peak position with respect to the filtered spectrum along the scanning line is detected by a spectral image sensing unit for generating the sectional profile of the measured surface.
Owner:NAT TAIPEI UNIV OF TECH

Image pickup apparatus for capturing spectral images of an object and observation system including the same

An image pickup apparatus has a construction in which a diffraction element is provided in an observation optical system. Zero-order light that is transmitted straight through the diffraction element and one of the +1st-order diffracted light and the −1st-order diffracted light that is diffracted by the diffraction element are imaged onto an image pickup surface of an image pickup apparatus. The imaging areas of the zero-order light and one of the +1st-order diffracted light and the −1st-order diffracted light that is diffracted by the diffraction element do not overlap on the image pickup surface of the image pickup apparatus. With this construction, a small image pickup apparatus that provides a high-resolution spectral image and a color image of an object can be obtained.
Owner:OLYMPUS CORP

High resolution spectrometer and optical calibrating method thereof

The invention provides a high resolution spectrometer and an optical calibrating method thereof. The high resolution spectrometer is a hadamard transform spectrometer and comprises a light entrance port, a collimating lens, a grating, a first focusing lens, a digital micromirror, a second focusing lens and a detector according to the incident light sequence. A prism is arranged between the first focusing lens and the second focusing lens. The grating is an echelle grating. The digital micromirror is a two-dimensional digital micromirror. The spectrometer can be applied to spectral analysis.
Owner:BEIJING CHINAINVENT INSTR TECH

Multifunctional astronomical telescope integrating sun observation function with star observation function

Disclosed is a multifunctional astronomical telescope integrating a sun observation function with a star observation function. A Gregore optical system is employed as a basis of a three-mirror system. The multifunctional astronomical telescope is characterized in that the optical system is internally provided with a coude reflector for transiting light reflected by a primary mirror and a secondary mirror to an altitude axis, and system focal ratio conversion is carried out through a flat spherical mirror on the altitude axis; three focuses are designed for a system: a main focus is provided with a view field diaphragm, a reflector and a refrigeration apparatus and is shared with a star observation optical path; a system focus provided with a magnetic analyzer calibrating apparatus; and a scientific focus which involves whole-reflector imaging; and a conversion apparatus is arranged at the focus position of the main mirror, and through switching between the view field diaphragm and an image field correction mirror, switching between a sun observation optical path and a star observation optical path is realized. The multifunctional astronomical telescope provided by the invention solves the problem that sun observation and star observation cannot be realized in the one astronomical telescope in the prior art, and realizes unification of wide spectrum, large view field, high-quality imaging and high-resolution spectrum measuring functions under the condition of sun and star observation.
Owner:NANJING INST OF ASTRONOMICAL OPTICS & TECH NAT ASTRONOMICAL OBSE

Method and apparatus to improve nmr spectral resolution in an inhomogeneous magnetic field

A method and apparatus for improving spectral resolution of an NMR measurement in the presence of an inhomogeneous magnetic field. According to one embodiment, a method producing a high resolution nuclear magnetic resonance (NMR) spectrum for a sample in an inhomogeneous magnetic field may comprise generating a first magnetic pulse and a second magnetic pulse, the first and second magnetic pulses being separated in time by a first time period, during the first time period, generating a gradient pulse, repeating the steps of generating the first and second magnetic pulses and generating the gradient pulse N times for different values of a field strength of the gradient pulse, wherein N is an integer greater than one, after each second magnetic pulse, acquiring a signal from the sample, and producing a reconstructed high resolution NMR spectrum from the acquired signals.
Owner:SCHLUMBERGER TECH CORP

System and method for high-resolution spectroscopic imaging

A new method is developed to accelerate high-resolution magnetic resonance spectroscopic imaging (MRSI). The method is built on a low-dimensional subspace model exploiting the partial separability of high-dimensional MRSI signals and uses this subspace model for data acquisition, processing, and image reconstruction. Specifically for two and three dimensional MRSI with one spectral dimension, this method sparsely samples the corresponding (k,t)-space in two complementary data sets, one with dense temporal sampling and high signal-to-noise ratio but limited k-space coverage and the other with sparse temporal sampling but extended k-space coverage. The reconstruction is then done by estimating a set of temporal / spectral basis functions and the corresponding spatial coefficients from these two data sets. The proposed subspace model can be further extended to incorporate multiple signal components for nuisance signal removal in 1H-MRSI and more generalized reconstruction methods. The resulting imaging technique can be used for high-resolution MRSI of different nuclei. It will be useful for high-resolution metabolic imaging with many exciting applications.
Owner:THE BOARD OF TRUSTEES OF THE UNIV OF ILLINOIS

High-spectrum-resolution total atmospheric spectral transmittance measuring method

The invention discloses a high-spectrum-resolution total atmospheric spectral transmittance measuring method. The method includes: using a target tracking device for acquiring sunlight or starlight penetrating the atmosphere as signal light, taking a high-coherence narrow linewidth laser as local oscillation laser, subjecting the signal light penetrating the atmosphere and the local oscillation laser to optical mixing in a heterodyne detector prior to passing through an intermediate-frequency filter and a square-law detector, sending to a band-pass filter to remove noise, enabling a computer to collect for obtaining a heterodyne signal generated by combination of the signal light penetrating the atmosphere and the local oscillation laser, and processing the heterodyne signal to obtain a high-resolution spectrum of weak signal light penetrating the atmosphere. The high-spectrum-resolution total atmospheric spectral transmittance measuring method is used for real-time measurement of total atmospheric spectral transmittance and applicable to fields of atmospheric optics, meteorological research, atmospheric pollution monitoring, detection and the like, and quick response and real-time measurement of high-spectrum-resolution total atmospheric spectral transmittance can be realized according to the method.
Owner:HEFEI INSTITUTES OF PHYSICAL SCIENCE - CHINESE ACAD OF SCI

Frequency comb source with large comb spacing

A frequency comb laser providing large comb spacing is disclosed. At least one embodiment includes a mode locked waveguide laser system. The mode locked waveguide laser includes a laser cavity having a waveguide, and a dispersion control unit (DCU) in the cavity. The DCU imparts an angular dispersion, group-velocity dispersion (GVD) and a spatial chirp to a beam propagating in the cavity. The DCU is capable of producing net GVD in a range from a positive value to a negative value. In some embodiments a tunable fiber frequency comb system configured as an optical frequency synthesizer is provided. In at least one embodiment a low phase noise micro-wave source may be implemented with a fiber comb laser having a comb spacing greater than about 1 GHz. The laser system is suitable for mass-producible fiber comb sources with large comb spacing and low noise. Applications include high-resolution spectroscopy.
Owner:IMRA AMERICA

Method for narrowing line width of semiconductor laser by means of improved phase modulation heterodyning technology based on electric feedback

The invention discloses a method for narrowing the line width of a semiconductor laser by means of an improved phase modulation heterodyning technology based on electric feedback. The method for narrowing the line width comprises the steps: an output signal of the laser is connected to a frequency shifting MZ interferometer through an acoustic optical modulator, the frequency noise of the laser is converted into phase noise, coherent demodulation is carried out by a radio-frequency signal with controllable frequency deviation, then, frequency correction signals are obtained through amplification and filtering, a part of the frequency correction signals enter a driving current of the laser, the other part of the frequency correction signals are connected to an electric input end of the acoustic optical modulator behind a photoelectric detector, the frequency of the laser is corrected, the phase noise is reduced, and therefore the aim of narrowing the line width is achieved. The method for narrowing the line width has the advantages that the device is simple and easy to achieve, and a high-fineness FP cavity is not required; the line width is narrowed, and the frequency can be modulated at the same time; a high-quality light source is provided for a coherent light communication and high-resolution spectrograph; the requirements for the frequency of the laser do not exist, and therefore narrowing of the line width of the laser in various wavebands can be achieved.
Owner:TIANJIN UNIVERSITY OF TECHNOLOGY

High resolution spectral measuring apparatus

The invention provides a high resolution spectrum measurement device which relates to the spectrum measurement technology field and solves a spectrum measurement problem of improving sensitivity and resolution. The measurement device from a light incident end comprises an incident lens, a plurality of sets of dispersive propagation parts, a slit, a terminal dispersive element and a planar array photosensitive element in turn. Each set of dispersive propagation part from a light input end comprises a dispersive element, a cylindrical lens, a plurality of roots of fiber bundles arrayed according to straight line. Incident light forms parallel light via the incident lens to irradiate on a first dispersive element to process subsection. The dispersive incident light via the first dispersive element is focalized via the cylindrical lens to process subsection and then enters into a plurality of roots of fiber bundles, and then is propagated to the dispersive element of posterior one set of dispersive propagation part to process subsection again, or reaches the terminal dispersive element via the slit, then is irradiated on the planar array photosensitive element to transform into electrical signals, so as to complete spectrum measurement. The invention is characterized in high resolution, high sensitivity, and measuring dynamic spectrum or transient spectrum.
Owner:蔡小舒

Secondary acousto-optic tunable filter hyperspectral imaging method and device

InactiveCN102353451AImprove light collectionConducive to small size and light weightSpectrum investigationNon-linear opticsImage resolutionAgricultural census
The invention relates to a secondary acousto-optic tunable filter hyperspectral imaging method and a device, and belongs to the technical field of optical remote sensing imaging. A high-resolution spectral image of a target to be tested can be taken at visible and near infrared wave bands, and the identification and analysis of the feature and characteristics of the target are realized. The invention is characterized in that: the optical imaging technology and a secondary acousto-optic tunable filter part are organically combined, two acousto-optic tunable filters are used as light splitting elements for spectral imaging and are connected in series in an optical structure, and transmission spectra are multiplied; and the resolution of the system is more than four times higher than that of a spectral imaging system of a single acoustic-optic tunable filter (AOTF). The secondary acousto-optic tunable filter hyperspectral imaging technology and the device have the advantages of high spectral resolution, small size, light weight, quick spectral scanning speed, wide tuning range and the like, and can be widely applied to the fields of remote sensing science, agricultural census, geographic information and the like.
Owner:CHANGCHUN UNIV OF SCI & TECH

Remote sensing image fusion method based on multi-redundancy dictionary and sparse reconstruction

The invention discloses a remote sensing image fusion method based on multi-redundancy dictionary and sparse reconstruction and mainly solves the problem that spectral information and spatial resolution are imbalanced in multi-spectrum and panchromatic image fusion process. The remote sensing image fusion method includes steps of 1, splitting high-resolution panchromatic image and low-resolution multi-spectrum image blocks; 2, summing various wave bands linearly of the low-resolution multi-spectrum image blocks to obtain low-resolution spectrum-strength image blocks; 3, acquiring the high-resolution spectrum-strength image blocks according to the low-resolution spectrum-strength image blocks; 4, acquiring fusion image blocks according to the high-resolution spectrum-strength image blocks and the low-resolution multi-spectrum image blocks; 5, combining the fusion image blocks to obtain fusion images. The remote sensing image fusion method has the advantages of spectrum retainability and high spatial resolution of the fusion images and can be used for object identification, meteorological monitoring, environmental monitoring, urban planning and disaster and damage prevention and reduction.
Owner:XIDIAN UNIV

Prism and grating cascading dispersion two-channel and high-resolution spectrum imaging system

The invention discloses a prism and grating cascading dispersion two-channel and high-resolution spectrum imaging system, belongs to the field of aerospace optics, and solves the problem that the high resolution and the broadband spectrum of a conventional single dispersion spectrum imaging system cannot be detected simultaneously. A broadband light beam going out of an entrance slit of the system is sequentially subjected to collimation by a first collimating mirror and pre-dispersion by a dispersion prism and is focused to a color separation film by a focusing reflecting mirror in a wavelength dividing manner; the color separation film performs transmission on a light beam c with a short wavelength and reflects a light beam d with a long wavelength; the transmission light beam is imaged on a focal plane of a first detector by a first focusing lens group in a wavelength dividing manner after sequentially subjected to folding by a plane turning mirror and a first turning prism, collimation by a second collimating mirror and secondary dispersion of a first plane grating; and the reflection light beam is imaged on a focal plane of a second detector by a second focusing lens group in a wavelength dividing manner after sequentially subjected to folding by a second turning prism, collimation by a third collimating mirror and secondary dispersion of a second plane grating. According to the prism and grating cascading dispersion two-channel and high-resolution spectrum imaging system, the broadband and high spectral resolution are simultaneously detected, the spectral resolution is improved.
Owner:CHANGCHUN INST OF OPTICS FINE MECHANICS & PHYSICS CHINESE ACAD OF SCI

Wide viewing field and high resolution ratio imaging arrangement for pushbroom optical spectrum imagers

A wide viewing field and high-definition imaging structure of frayed end imaging spectrograph, which comprises wide viewing field image-forming lens, several narrow slits, spectrometer, which comprises collimating mirror, optical grating and collective lens), and plate array light-sensitive detector. Optic axis of spectrometer is parallel with imaging lens optic axis. Light splitting is exerted on different viewing narrow slits of image lens focal surface to paste-up a wide viewing field and high-definition imaging spectrum system. According to actual requirement, length and sum of narrow slit, focus of imaging lens and the size of detecting element can be chosen to produce imaging spectrograph of different imaging viewing fields and distinguishabilities.
Owner:SHANGHAI INST OF TECHNICAL PHYSICS - CHINESE ACAD OF SCI +1

Dayglow temperature photometer and method thereof for detecting airglow spectrum intensity and temperature

The invention provides a dayglow temperature photometer and a method thereof for detecting airglow spectrum intensity and temperature. An echelon grating and a narrow-band interference filter equipped with a micro-angle stepping motor are organically combined to serve as a core device of the dayglow temperature photometer, the high spectral resolution is obtained, the range of spectrum detection is broaden by rotating narrow-band filter, and luminous intensity and temperature of dayglows in an upper atmosphere are detected simultaneously by utilizing a high-resolution spectroscopic method and a rotational spectral-line temperature-measuring method. The dayglow temperature photometer comprises four portions including a light guide system, a telescopic system, a light splitting system and an imaging system which are sequentially arranged.
Owner:NANJING UNIV OF INFORMATION SCI & TECH
Who we serve
  • R&D Engineer
  • R&D Manager
  • IP Professional
Why Patsnap Eureka
  • Industry Leading Data Capabilities
  • Powerful AI technology
  • Patent DNA Extraction
Social media
Patsnap Eureka Blog
Learn More
PatSnap group products